Auto merge of #15248 - Veykril:eager, r=Veykril

Fix eager token mapping panics
This commit is contained in:
bors 2023-07-13 07:39:30 +00:00
commit 132ba2cf77
20 changed files with 535 additions and 206 deletions

View file

@ -235,10 +235,10 @@ macro_rules! format_args {
fn main() {
/* error: no rule matches input tokens */;
/* error: no rule matches input tokens */;
/* error: no rule matches input tokens */;
/* error: no rule matches input tokens */::core::fmt::Arguments::new_v1(&["", ], &[::core::fmt::ArgumentV1::new(&(), ::core::fmt::Display::fmt), ]);
/* error: no rule matches input tokens */;
/* error: expected expression */;
/* error: expected expression, expected COMMA */;
/* error: expected expression */::core::fmt::Arguments::new_v1(&["", ], &[::core::fmt::ArgumentV1::new(&(), ::core::fmt::Display::fmt), ]);
/* error: expected expression, expected R_PAREN */;
::core::fmt::Arguments::new_v1(&["", ], &[::core::fmt::ArgumentV1::new(&(5), ::core::fmt::Display::fmt), ]);
}
"##]],
@ -364,7 +364,7 @@ macro_rules! format_args {
fn main() {
let _ =
/* error: no rule matches input tokens *//* parse error: expected field name or number */
/* error: expected field name or number *//* parse error: expected field name or number */
::core::fmt::Arguments::new_v1(&["", " ", ], &[::core::fmt::ArgumentV1::new(&(a.), ::core::fmt::Display::fmt), ::core::fmt::ArgumentV1::new(&(), ::core::fmt::Debug::fmt), ]);
}
"##]],

View file

@ -98,6 +98,42 @@ fn#19 main#20(#21)#21 {#22
"##]],
);
}
#[test]
fn token_mapping_eager() {
check(
r#"
#[rustc_builtin_macro]
#[macro_export]
macro_rules! format_args {}
macro_rules! identity {
($expr:expr) => { $expr };
}
fn main(foo: ()) {
format_args/*+tokenids*/!("{} {} {}", format_args!("{}", 0), foo, identity!(10), "bar")
}
"#,
expect![[r##"
#[rustc_builtin_macro]
#[macro_export]
macro_rules! format_args {}
macro_rules! identity {
($expr:expr) => { $expr };
}
fn main(foo: ()) {
// format_args/*+tokenids*/!("{} {} {}"#1,#3 format_args!("{}", 0#10),#12 foo#13,#14 identity!(10#18),#21 "bar"#22)
::core#4294967295::fmt#4294967295::Arguments#4294967295::new_v1#4294967295(&#4294967295[#4294967295""#4294967295,#4294967295 " "#4294967295,#4294967295 " "#4294967295,#4294967295 ]#4294967295,#4294967295 &#4294967295[::core#4294967295::fmt#4294967295::ArgumentV1#4294967295::new#4294967295(&#4294967295(::core#4294967295::fmt#4294967295::Arguments#4294967295::new_v1#4294967295(&#4294967295[#4294967295""#4294967295,#4294967295 ]#4294967295,#4294967295 &#4294967295[::core#4294967295::fmt#4294967295::ArgumentV1#4294967295::new#4294967295(&#4294967295(#42949672950#10)#4294967295,#4294967295 ::core#4294967295::fmt#4294967295::Display#4294967295::fmt#4294967295)#4294967295,#4294967295 ]#4294967295)#4294967295)#4294967295,#4294967295 ::core#4294967295::fmt#4294967295::Display#4294967295::fmt#4294967295)#4294967295,#4294967295 ::core#4294967295::fmt#4294967295::ArgumentV1#4294967295::new#4294967295(&#4294967295(#4294967295foo#13)#4294967295,#4294967295 ::core#4294967295::fmt#4294967295::Display#4294967295::fmt#4294967295)#4294967295,#4294967295 ::core#4294967295::fmt#4294967295::ArgumentV1#4294967295::new#4294967295(&#4294967295(#429496729510#18)#4294967295,#4294967295 ::core#4294967295::fmt#4294967295::Display#4294967295::fmt#4294967295)#4294967295,#4294967295 ]#4294967295)#4294967295
}
"##]],
);
}
#[test]
fn float_field_access_macro_input() {
check(

View file

@ -187,7 +187,7 @@ pub fn identity_when_valid(_attr: TokenStream, item: TokenStream) -> TokenStream
let range: Range<usize> = range.into();
if show_token_ids {
if let Some((tree, map, _)) = arg.as_deref() {
if let Some((tree, map, _)) = arg.value.as_deref() {
let tt_range = call.token_tree().unwrap().syntax().text_range();
let mut ranges = Vec::new();
extract_id_ranges(&mut ranges, map, tree);

View file

@ -692,7 +692,7 @@ pub(crate) fn include_arg_to_tt(
arg_id: MacroCallId,
) -> Result<(triomphe::Arc<(::tt::Subtree<::tt::TokenId>, TokenMap)>, FileId), ExpandError> {
let loc = db.lookup_intern_macro_call(arg_id);
let Some(EagerCallInfo { arg, arg_id: Some(arg_id), .. }) = loc.eager.as_deref() else {
let Some(EagerCallInfo { arg,arg_id, .. }) = loc.eager.as_deref() else {
panic!("include_arg_to_tt called on non include macro call: {:?}", &loc.eager);
};
let path = parse_string(&arg.0)?;

View file

@ -3,7 +3,7 @@
use base_db::{salsa, CrateId, Edition, SourceDatabase};
use either::Either;
use limit::Limit;
use mbe::syntax_node_to_token_tree;
use mbe::{syntax_node_to_token_tree, ValueResult};
use rustc_hash::FxHashSet;
use syntax::{
ast::{self, HasAttrs, HasDocComments},
@ -124,16 +124,21 @@ pub trait ExpandDatabase: SourceDatabase {
fn macro_arg(
&self,
id: MacroCallId,
) -> Option<Arc<(tt::Subtree, mbe::TokenMap, fixup::SyntaxFixupUndoInfo)>>;
) -> ValueResult<
Option<Arc<(tt::Subtree, mbe::TokenMap, fixup::SyntaxFixupUndoInfo)>>,
Arc<Box<[SyntaxError]>>,
>;
/// Extracts syntax node, corresponding to a macro call. That's a firewall
/// query, only typing in the macro call itself changes the returned
/// subtree.
fn macro_arg_text(&self, id: MacroCallId) -> Option<GreenNode>;
/// Gets the expander for this macro. This compiles declarative macros, and
/// just fetches procedural ones.
// FIXME: Rename this
fn macro_arg_node(
&self,
id: MacroCallId,
) -> ValueResult<Option<GreenNode>, Arc<Box<[SyntaxError]>>>;
/// Fetches the expander for this macro.
#[salsa::transparent]
fn macro_def(&self, id: MacroDefId) -> TokenExpander;
fn macro_expander(&self, id: MacroDefId) -> TokenExpander;
/// Fetches (and compiles) the expander of this decl macro.
fn decl_macro_expander(
&self,
def_crate: CrateId,
@ -335,14 +340,20 @@ fn parse_macro_expansion_error(
fn macro_arg(
db: &dyn ExpandDatabase,
id: MacroCallId,
) -> Option<Arc<(tt::Subtree, mbe::TokenMap, fixup::SyntaxFixupUndoInfo)>> {
) -> ValueResult<
Option<Arc<(tt::Subtree, mbe::TokenMap, fixup::SyntaxFixupUndoInfo)>>,
Arc<Box<[SyntaxError]>>,
> {
let loc = db.lookup_intern_macro_call(id);
if let Some(EagerCallInfo { arg, arg_id: Some(_), error: _ }) = loc.eager.as_deref() {
return Some(Arc::new((arg.0.clone(), arg.1.clone(), Default::default())));
if let Some(EagerCallInfo { arg, arg_id: _, error: _ }) = loc.eager.as_deref() {
return ValueResult::ok(Some(Arc::new((arg.0.clone(), arg.1.clone(), Default::default()))));
}
let arg = db.macro_arg_text(id)?;
let ValueResult { value, err } = db.macro_arg_node(id);
let Some(arg) = value else {
return ValueResult { value: None, err };
};
let node = SyntaxNode::new_root(arg);
let censor = censor_for_macro_input(&loc, &node);
@ -360,7 +371,11 @@ fn macro_arg(
// proc macros expect their inputs without parentheses, MBEs expect it with them included
tt.delimiter = tt::Delimiter::unspecified();
}
Some(Arc::new((tt, tmap, fixups.undo_info)))
let val = Some(Arc::new((tt, tmap, fixups.undo_info)));
match err {
Some(err) => ValueResult::new(val, err),
None => ValueResult::ok(val),
}
}
/// Certain macro calls expect some nodes in the input to be preprocessed away, namely:
@ -402,9 +417,44 @@ fn censor_for_macro_input(loc: &MacroCallLoc, node: &SyntaxNode) -> FxHashSet<Sy
.unwrap_or_default()
}
fn macro_arg_text(db: &dyn ExpandDatabase, id: MacroCallId) -> Option<GreenNode> {
fn macro_arg_node(
db: &dyn ExpandDatabase,
id: MacroCallId,
) -> ValueResult<Option<GreenNode>, Arc<Box<[SyntaxError]>>> {
let err = || -> Arc<Box<[_]>> {
Arc::new(Box::new([SyntaxError::new_at_offset(
"invalid macro call".to_owned(),
syntax::TextSize::from(0),
)]))
};
let loc = db.lookup_intern_macro_call(id);
let arg = loc.kind.arg(db)?;
let arg = if let MacroDefKind::BuiltInEager(..) = loc.def.kind {
let res = if let Some(EagerCallInfo { arg, .. }) = loc.eager.as_deref() {
Some(mbe::token_tree_to_syntax_node(&arg.0, mbe::TopEntryPoint::Expr).0)
} else {
loc.kind
.arg(db)
.and_then(|arg| ast::TokenTree::cast(arg.value))
.map(|tt| tt.reparse_as_expr().to_syntax())
};
match res {
Some(res) if res.errors().is_empty() => res.syntax_node(),
Some(res) => {
return ValueResult::new(
Some(res.syntax_node().green().into()),
// Box::<[_]>::from(res.errors()), not stable yet
Arc::new(res.errors().to_vec().into_boxed_slice()),
);
}
None => return ValueResult::only_err(err()),
}
} else {
match loc.kind.arg(db) {
Some(res) => res.value,
None => return ValueResult::only_err(err()),
}
};
if matches!(loc.kind, MacroCallKind::FnLike { .. }) {
let first = arg.first_child_or_token().map_or(T![.], |it| it.kind());
let last = arg.last_child_or_token().map_or(T![.], |it| it.kind());
@ -419,20 +469,13 @@ fn macro_arg_text(db: &dyn ExpandDatabase, id: MacroCallId) -> Option<GreenNode>
// Some day, we'll have explicit recursion counters for all
// recursive things, at which point this code might be removed.
cov_mark::hit!(issue9358_bad_macro_stack_overflow);
return None;
return ValueResult::only_err(Arc::new(Box::new([SyntaxError::new(
"unbalanced token tree".to_owned(),
arg.text_range(),
)])));
}
}
if let Some(EagerCallInfo { arg, .. }) = loc.eager.as_deref() {
Some(
mbe::token_tree_to_syntax_node(&arg.0, mbe::TopEntryPoint::Expr)
.0
.syntax_node()
.green()
.into(),
)
} else {
Some(arg.green().into())
}
ValueResult::ok(Some(arg.green().into()))
}
fn decl_macro_expander(
@ -474,7 +517,7 @@ fn decl_macro_expander(
Arc::new(DeclarativeMacroExpander { mac, def_site_token_map })
}
fn macro_def(db: &dyn ExpandDatabase, id: MacroDefId) -> TokenExpander {
fn macro_expander(db: &dyn ExpandDatabase, id: MacroDefId) -> TokenExpander {
match id.kind {
MacroDefKind::Declarative(ast_id) => {
TokenExpander::DeclarativeMacro(db.decl_macro_expander(id.krate, ast_id))
@ -490,15 +533,11 @@ fn macro_def(db: &dyn ExpandDatabase, id: MacroDefId) -> TokenExpander {
fn macro_expand(db: &dyn ExpandDatabase, id: MacroCallId) -> ExpandResult<Arc<tt::Subtree>> {
let _p = profile::span("macro_expand");
let loc = db.lookup_intern_macro_call(id);
if let Some(EagerCallInfo { arg, arg_id: None, error }) = loc.eager.as_deref() {
// This is an input expansion for an eager macro. These are already pre-expanded
return ExpandResult { value: Arc::new(arg.0.clone()), err: error.clone() };
}
let (ExpandResult { value: mut tt, mut err }, tmap) = match loc.def.kind {
let ExpandResult { value: tt, mut err } = match loc.def.kind {
MacroDefKind::ProcMacro(..) => return db.expand_proc_macro(id),
MacroDefKind::BuiltInDerive(expander, ..) => {
let arg = db.macro_arg_text(id).unwrap();
let arg = db.macro_arg_node(id).value.unwrap();
let node = SyntaxNode::new_root(arg);
let censor = censor_for_macro_input(&loc, &node);
@ -514,10 +553,13 @@ fn macro_expand(db: &dyn ExpandDatabase, id: MacroCallId) -> ExpandResult<Arc<tt
// this cast is a bit sus, can we avoid losing the typedness here?
let adt = ast::Adt::cast(node).unwrap();
(expander.expand(db, id, &adt, &tmap), Some((tmap, fixups.undo_info)))
let mut res = expander.expand(db, id, &adt, &tmap);
fixup::reverse_fixups(&mut res.value, &tmap, &fixups.undo_info);
res
}
_ => {
let Some(macro_arg) = db.macro_arg(id) else {
let ValueResult { value, err } = db.macro_arg(id);
let Some(macro_arg) = value else {
return ExpandResult {
value: Arc::new(tt::Subtree {
delimiter: tt::Delimiter::UNSPECIFIED,
@ -528,18 +570,43 @@ fn macro_expand(db: &dyn ExpandDatabase, id: MacroCallId) -> ExpandResult<Arc<tt
err: Some(ExpandError::other("invalid token tree")),
};
};
let (arg, arg_tm, undo_info) = &*macro_arg;
let mut res = match loc.def.kind {
MacroDefKind::Declarative(id) => {
db.decl_macro_expander(loc.def.krate, id).expand(arg.clone())
}
MacroDefKind::BuiltIn(it, _) => it.expand(db, id, &arg).map_err(Into::into),
// This might look a bit odd, but we do not expand the inputs to eager macros here.
// Eager macros inputs are expanded, well, eagerly when we collect the macro calls.
// That kind of expansion uses the ast id map of an eager macros input though which goes through
// the HirFileId machinery. As eager macro inputs are assigned a macro file id that query
// will end up going through here again, whereas we want to just want to inspect the raw input.
// As such we just return the input subtree here.
MacroDefKind::BuiltInEager(..) if loc.eager.is_none() => {
let mut arg = arg.clone();
fixup::reverse_fixups(&mut arg, arg_tm, undo_info);
return ExpandResult {
value: Arc::new(arg),
err: err.map(|err| {
let mut buf = String::new();
for err in &**err {
use std::fmt::Write;
_ = write!(buf, "{}, ", err);
}
buf.pop();
buf.pop();
ExpandError::other(buf)
}),
};
}
MacroDefKind::BuiltInEager(it, _) => it.expand(db, id, &arg).map_err(Into::into),
MacroDefKind::BuiltInAttr(it, _) => it.expand(db, id, &arg),
_ => unreachable!(),
};
fixup::reverse_fixups(&mut res.value, arg_tm, undo_info);
(res, None)
res
}
};
@ -553,24 +620,23 @@ fn macro_expand(db: &dyn ExpandDatabase, id: MacroCallId) -> ExpandResult<Arc<tt
return value;
}
if let Some((arg_tm, undo_info)) = &tmap {
fixup::reverse_fixups(&mut tt, arg_tm, undo_info);
}
ExpandResult { value: Arc::new(tt), err }
}
fn expand_proc_macro(db: &dyn ExpandDatabase, id: MacroCallId) -> ExpandResult<Arc<tt::Subtree>> {
let loc = db.lookup_intern_macro_call(id);
let Some(macro_arg) = db.macro_arg(id) else {
let Some(macro_arg) = db.macro_arg(id).value else {
return ExpandResult {
value: Arc::new(tt::Subtree {
delimiter: tt::Delimiter::UNSPECIFIED,
token_trees: Vec::new(),
}),
// FIXME: We should make sure to enforce an invariant that invalid macro
// calls do not reach this call path!
err: Some(ExpandError::other("invalid token tree")),
};
};
let (arg_tt, arg_tm, undo_info) = &*macro_arg;
let expander = match loc.def.kind {

View file

@ -19,7 +19,8 @@
//!
//! See the full discussion : <https://rust-lang.zulipchat.com/#narrow/stream/131828-t-compiler/topic/Eager.20expansion.20of.20built-in.20macros>
use base_db::CrateId;
use syntax::{ted, Parse, SyntaxNode};
use rustc_hash::FxHashMap;
use syntax::{ted, Parse, SyntaxNode, TextRange, TextSize, WalkEvent};
use triomphe::Arc;
use crate::{
@ -38,18 +39,8 @@ pub fn expand_eager_macro_input(
def: MacroDefId,
resolver: &dyn Fn(ModPath) -> Option<MacroDefId>,
) -> Result<ExpandResult<Option<MacroCallId>>, UnresolvedMacro> {
assert!(matches!(def.kind, MacroDefKind::BuiltInEager(..)));
let token_tree = macro_call.value.token_tree();
let Some(token_tree) = token_tree else {
return Ok(ExpandResult {
value: None,
err: Some(ExpandError::other("invalid token tree")),
});
};
let (parsed_args, arg_token_map) = mbe::syntax_node_to_token_tree(token_tree.syntax());
let ast_map = db.ast_id_map(macro_call.file_id);
// the expansion which the ast id map is built upon has no whitespace, so the offsets are wrong as macro_call is from the token tree that has whitespace!
let call_id = InFile::new(macro_call.file_id, ast_map.ast_id(&macro_call.value));
let expand_to = ExpandTo::from_call_site(&macro_call.value);
@ -60,41 +51,69 @@ pub fn expand_eager_macro_input(
let arg_id = db.intern_macro_call(MacroCallLoc {
def,
krate,
eager: Some(Box::new(EagerCallInfo {
arg: Arc::new((parsed_args, arg_token_map)),
arg_id: None,
error: None,
})),
eager: None,
kind: MacroCallKind::FnLike { ast_id: call_id, expand_to: ExpandTo::Expr },
});
let arg_as_expr = match db.macro_arg_text(arg_id) {
Some(it) => it,
None => {
return Ok(ExpandResult {
value: None,
err: Some(ExpandError::other("invalid token tree")),
})
}
let ExpandResult { value: (arg_exp, arg_exp_map), err: parse_err } =
db.parse_macro_expansion(arg_id.as_macro_file());
// we need this map here as the expansion of the eager input fake file loses whitespace ...
let mut ws_mapping = FxHashMap::default();
if let Some((_, tm, _)) = db.macro_arg(arg_id).value.as_deref() {
ws_mapping.extend(tm.entries().filter_map(|(id, range)| {
Some((arg_exp_map.first_range_by_token(id, syntax::SyntaxKind::TOMBSTONE)?, range))
}));
}
let ExpandResult { value: expanded_eager_input, err } = {
eager_macro_recur(
db,
&Hygiene::new(db, macro_call.file_id),
InFile::new(arg_id.as_file(), arg_exp.syntax_node()),
krate,
resolver,
)?
};
let ExpandResult { value: expanded_eager_input, err } = eager_macro_recur(
db,
&Hygiene::new(db, macro_call.file_id),
InFile::new(arg_id.as_file(), SyntaxNode::new_root(arg_as_expr)),
krate,
resolver,
)?;
let Some(expanded_eager_input) = expanded_eager_input else {
let err = parse_err.or(err);
let Some((expanded_eager_input, mapping)) = expanded_eager_input else {
return Ok(ExpandResult { value: None, err });
};
let (mut subtree, token_map) = mbe::syntax_node_to_token_tree(&expanded_eager_input);
let og_tmap = mbe::syntax_node_to_token_map(
macro_call.value.token_tree().expect("macro_arg_text succeeded").syntax(),
);
let (mut subtree, expanded_eager_input_token_map) =
mbe::syntax_node_to_token_tree(&expanded_eager_input);
// The tokenmap and ids of subtree point into the expanded syntax node, but that is inaccessible from the outside
// so we need to remap them to the original input of the eager macro.
subtree.visit_ids(&|id| {
// Note: we discard all token ids of braces and the like here, but that's not too bad and only a temporary fix
if let Some(range) =
expanded_eager_input_token_map.first_range_by_token(id, syntax::SyntaxKind::TOMBSTONE)
{
// remap from expanded eager input to eager input expansion
if let Some(og_range) = mapping.get(&range) {
// remap from eager input expansion to original eager input
if let Some(&og_range) = ws_mapping.get(og_range) {
if let Some(og_token) = og_tmap.token_by_range(og_range) {
return og_token;
}
}
}
}
tt::TokenId::UNSPECIFIED
});
subtree.delimiter = crate::tt::Delimiter::unspecified();
let loc = MacroCallLoc {
def,
krate,
eager: Some(Box::new(EagerCallInfo {
arg: Arc::new((subtree, token_map)),
arg_id: Some(arg_id),
arg: Arc::new((subtree, og_tmap)),
arg_id,
error: err.clone(),
})),
kind: MacroCallKind::FnLike { ast_id: call_id, expand_to },
@ -108,19 +127,16 @@ fn lazy_expand(
def: &MacroDefId,
macro_call: InFile<ast::MacroCall>,
krate: CrateId,
) -> ExpandResult<InFile<Parse<SyntaxNode>>> {
) -> ExpandResult<(InFile<Parse<SyntaxNode>>, Arc<mbe::TokenMap>)> {
let ast_id = db.ast_id_map(macro_call.file_id).ast_id(&macro_call.value);
let expand_to = ExpandTo::from_call_site(&macro_call.value);
let id = def.as_lazy_macro(
db,
krate,
MacroCallKind::FnLike { ast_id: macro_call.with_value(ast_id), expand_to },
);
let ast_id = macro_call.with_value(ast_id);
let id = def.as_lazy_macro(db, krate, MacroCallKind::FnLike { ast_id, expand_to });
let macro_file = id.as_macro_file();
db.parse_macro_expansion(macro_file).map(|parse| InFile::new(macro_file.into(), parse.0))
db.parse_macro_expansion(macro_file)
.map(|parse| (InFile::new(macro_file.into(), parse.0), parse.1))
}
fn eager_macro_recur(
@ -129,18 +145,43 @@ fn eager_macro_recur(
curr: InFile<SyntaxNode>,
krate: CrateId,
macro_resolver: &dyn Fn(ModPath) -> Option<MacroDefId>,
) -> Result<ExpandResult<Option<SyntaxNode>>, UnresolvedMacro> {
) -> Result<ExpandResult<Option<(SyntaxNode, FxHashMap<TextRange, TextRange>)>>, UnresolvedMacro> {
let original = curr.value.clone_for_update();
let mut mapping = FxHashMap::default();
let children = original.descendants().filter_map(ast::MacroCall::cast);
let mut replacements = Vec::new();
// Note: We only report a single error inside of eager expansions
let mut error = None;
let mut offset = 0i32;
let apply_offset = |it: TextSize, offset: i32| {
TextSize::from(u32::try_from(offset + u32::from(it) as i32).unwrap_or_default())
};
let mut children = original.preorder_with_tokens();
// Collect replacement
for child in children {
let def = match child.path().and_then(|path| ModPath::from_src(db, path, hygiene)) {
while let Some(child) = children.next() {
let WalkEvent::Enter(child) = child else { continue };
let call = match child {
syntax::NodeOrToken::Node(node) => match ast::MacroCall::cast(node) {
Some(it) => {
children.skip_subtree();
it
}
None => continue,
},
syntax::NodeOrToken::Token(t) => {
mapping.insert(
TextRange::new(
apply_offset(t.text_range().start(), offset),
apply_offset(t.text_range().end(), offset),
),
t.text_range(),
);
continue;
}
};
let def = match call.path().and_then(|path| ModPath::from_src(db, path, hygiene)) {
Some(path) => macro_resolver(path.clone()).ok_or(UnresolvedMacro { path })?,
None => {
error = Some(ExpandError::other("malformed macro invocation"));
@ -152,7 +193,7 @@ fn eager_macro_recur(
let ExpandResult { value, err } = match expand_eager_macro_input(
db,
krate,
curr.with_value(child.clone()),
curr.with_value(call.clone()),
def,
macro_resolver,
) {
@ -160,9 +201,22 @@ fn eager_macro_recur(
Err(err) => return Err(err),
};
match value {
Some(call) => {
Some(call_id) => {
let ExpandResult { value, err: err2 } =
db.parse_macro_expansion(call.as_macro_file());
db.parse_macro_expansion(call_id.as_macro_file());
let call_tt_start =
call.token_tree().unwrap().syntax().text_range().start();
let call_start = apply_offset(call.syntax().text_range().start(), offset);
if let Some((_, arg_map, _)) = db.macro_arg(call_id).value.as_deref() {
mapping.extend(arg_map.entries().filter_map(|(tid, range)| {
value
.1
.first_range_by_token(tid, syntax::SyntaxKind::TOMBSTONE)
.map(|r| (r + call_start, range + call_tt_start))
}));
};
ExpandResult {
value: Some(value.0.syntax_node().clone_for_update()),
err: err.or(err2),
@ -176,36 +230,61 @@ fn eager_macro_recur(
| MacroDefKind::BuiltInAttr(..)
| MacroDefKind::BuiltInDerive(..)
| MacroDefKind::ProcMacro(..) => {
let ExpandResult { value, err } =
lazy_expand(db, &def, curr.with_value(child.clone()), krate);
let ExpandResult { value: (parse, tm), err } =
lazy_expand(db, &def, curr.with_value(call.clone()), krate);
let decl_mac = if let MacroDefKind::Declarative(ast_id) = def.kind {
Some(db.decl_macro_expander(def.krate, ast_id))
} else {
None
};
// replace macro inside
let hygiene = Hygiene::new(db, value.file_id);
let hygiene = Hygiene::new(db, parse.file_id);
let ExpandResult { value, err: error } = eager_macro_recur(
db,
&hygiene,
// FIXME: We discard parse errors here
value.map(|it| it.syntax_node()),
parse.as_ref().map(|it| it.syntax_node()),
krate,
macro_resolver,
)?;
let err = err.or(error);
ExpandResult { value, err }
let call_tt_start = call.token_tree().unwrap().syntax().text_range().start();
let call_start = apply_offset(call.syntax().text_range().start(), offset);
if let Some((_tt, arg_map, _)) = parse
.file_id
.macro_file()
.and_then(|id| db.macro_arg(id.macro_call_id).value)
.as_deref()
{
mapping.extend(arg_map.entries().filter_map(|(tid, range)| {
tm.first_range_by_token(
decl_mac.as_ref().map(|it| it.map_id_down(tid)).unwrap_or(tid),
syntax::SyntaxKind::TOMBSTONE,
)
.map(|r| (r + call_start, range + call_tt_start))
}));
};
// FIXME: Do we need to re-use _m here?
ExpandResult { value: value.map(|(n, _m)| n), err }
}
};
if err.is_some() {
error = err;
}
// check if the whole original syntax is replaced
if child.syntax() == &original {
return Ok(ExpandResult { value, err: error });
if call.syntax() == &original {
return Ok(ExpandResult { value: value.zip(Some(mapping)), err: error });
}
if let Some(insert) = value {
replacements.push((child, insert));
offset += u32::from(insert.text_range().len()) as i32
- u32::from(call.syntax().text_range().len()) as i32;
replacements.push((call, insert));
}
}
replacements.into_iter().rev().for_each(|(old, new)| ted::replace(old.syntax(), new));
Ok(ExpandResult { value: Some(original), err: error })
Ok(ExpandResult { value: Some((original, mapping)), err: error })
}

View file

@ -26,7 +26,7 @@ pub(crate) struct SyntaxFixups {
/// This is the information needed to reverse the fixups.
#[derive(Debug, Default, PartialEq, Eq)]
pub struct SyntaxFixupUndoInfo {
original: Vec<Subtree>,
original: Box<[Subtree]>,
}
const EMPTY_ID: SyntheticTokenId = SyntheticTokenId(!0);
@ -272,7 +272,7 @@ pub(crate) fn fixup_syntax(node: &SyntaxNode) -> SyntaxFixups {
replace,
token_map,
next_id,
undo_info: SyntaxFixupUndoInfo { original },
undo_info: SyntaxFixupUndoInfo { original: original.into_boxed_slice() },
}
}

View file

@ -149,16 +149,12 @@ impl HygieneInfo {
token_id = unshifted;
(&attr_args.1, self.attr_input_or_mac_def_start?)
}
None => (
&self.macro_arg.1,
InFile::new(loc.kind.file_id(), loc.kind.arg(db)?.text_range().start()),
),
None => (&self.macro_arg.1, loc.kind.arg(db)?.map(|it| it.text_range().start())),
},
_ => match origin {
mbe::Origin::Call => (
&self.macro_arg.1,
InFile::new(loc.kind.file_id(), loc.kind.arg(db)?.text_range().start()),
),
mbe::Origin::Call => {
(&self.macro_arg.1, loc.kind.arg(db)?.map(|it| it.text_range().start()))
}
mbe::Origin::Def => match (&self.macro_def, &self.attr_input_or_mac_def_start) {
(TokenExpander::DeclarativeMacro(expander), Some(tt)) => {
(&expander.def_site_token_map, *tt)
@ -198,9 +194,9 @@ fn make_hygiene_info(
_ => None,
});
let macro_def = db.macro_def(loc.def);
let macro_def = db.macro_expander(loc.def);
let (_, exp_map) = db.parse_macro_expansion(macro_file).value;
let macro_arg = db.macro_arg(macro_file.macro_call_id).unwrap_or_else(|| {
let macro_arg = db.macro_arg(macro_file.macro_call_id).value.unwrap_or_else(|| {
Arc::new((
tt::Subtree { delimiter: tt::Delimiter::UNSPECIFIED, token_trees: Vec::new() },
Default::default(),

View file

@ -127,7 +127,8 @@ impl_intern_key!(MacroCallId);
pub struct MacroCallLoc {
pub def: MacroDefId,
pub(crate) krate: CrateId,
/// Some if `def` is a builtin eager macro.
/// Some if this is a macro call for an eager macro. Note that this is `None`
/// for the eager input macro file.
eager: Option<Box<EagerCallInfo>>,
pub kind: MacroCallKind,
}
@ -152,11 +153,10 @@ pub enum MacroDefKind {
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
struct EagerCallInfo {
/// NOTE: This can be *either* the expansion result, *or* the argument to the eager macro!
/// The expanded argument of the eager macro.
arg: Arc<(tt::Subtree, TokenMap)>,
/// call id of the eager macro's input file. If this is none, macro call containing this call info
/// is an eager macro's input, otherwise it is its output.
arg_id: Option<MacroCallId>,
/// Call id of the eager macro's input file (this is the macro file for its fully expanded input).
arg_id: MacroCallId,
error: Option<ExpandError>,
}
@ -221,11 +221,7 @@ impl HirFileId {
HirFileIdRepr::FileId(id) => break id,
HirFileIdRepr::MacroFile(MacroFile { macro_call_id }) => {
let loc: MacroCallLoc = db.lookup_intern_macro_call(macro_call_id);
let is_include_expansion = loc.def.is_include()
&& matches!(
loc.eager.as_deref(),
Some(EagerCallInfo { arg_id: Some(_), .. })
);
let is_include_expansion = loc.def.is_include() && loc.eager.is_some();
file_id = match is_include_expansion.then(|| db.include_expand(macro_call_id)) {
Some(Ok((_, file))) => file.into(),
_ => loc.kind.file_id(),
@ -270,53 +266,7 @@ impl HirFileId {
/// Return expansion information if it is a macro-expansion file
pub fn expansion_info(self, db: &dyn db::ExpandDatabase) -> Option<ExpansionInfo> {
let macro_file = self.macro_file()?;
let loc: MacroCallLoc = db.lookup_intern_macro_call(macro_file.macro_call_id);
let arg_tt = loc.kind.arg(db)?;
let macro_def = db.macro_def(loc.def);
let (parse, exp_map) = db.parse_macro_expansion(macro_file).value;
let macro_arg = db.macro_arg(macro_file.macro_call_id).unwrap_or_else(|| {
Arc::new((
tt::Subtree { delimiter: tt::Delimiter::UNSPECIFIED, token_trees: Vec::new() },
Default::default(),
Default::default(),
))
});
let def = loc.def.ast_id().left().and_then(|id| {
let def_tt = match id.to_node(db) {
ast::Macro::MacroRules(mac) => mac.token_tree()?,
ast::Macro::MacroDef(_) if matches!(macro_def, TokenExpander::BuiltInAttr(_)) => {
return None
}
ast::Macro::MacroDef(mac) => mac.body()?,
};
Some(InFile::new(id.file_id, def_tt))
});
let attr_input_or_mac_def = def.or_else(|| match loc.kind {
MacroCallKind::Attr { ast_id, invoc_attr_index, .. } => {
// FIXME: handle `cfg_attr`
let tt = ast_id
.to_node(db)
.doc_comments_and_attrs()
.nth(invoc_attr_index.ast_index())
.and_then(Either::left)?
.token_tree()?;
Some(InFile::new(ast_id.file_id, tt))
}
_ => None,
});
Some(ExpansionInfo {
expanded: InFile::new(self, parse.syntax_node()),
arg: InFile::new(loc.kind.file_id(), arg_tt),
attr_input_or_mac_def,
macro_arg_shift: mbe::Shift::new(&macro_arg.0),
macro_arg,
macro_def,
exp_map,
})
ExpansionInfo::new(db, macro_file)
}
pub fn as_builtin_derive_attr_node(
@ -370,7 +320,7 @@ impl HirFileId {
match self.macro_file() {
Some(macro_file) => {
let loc: MacroCallLoc = db.lookup_intern_macro_call(macro_file.macro_call_id);
matches!(loc.eager.as_deref(), Some(EagerCallInfo { .. }))
matches!(loc.def.kind, MacroDefKind::BuiltInEager(..))
}
_ => false,
}
@ -603,13 +553,18 @@ impl MacroCallKind {
FileRange { range, file_id }
}
fn arg(&self, db: &dyn db::ExpandDatabase) -> Option<SyntaxNode> {
fn arg(&self, db: &dyn db::ExpandDatabase) -> Option<InFile<SyntaxNode>> {
match self {
MacroCallKind::FnLike { ast_id, .. } => {
Some(ast_id.to_node(db).token_tree()?.syntax().clone())
MacroCallKind::FnLike { ast_id, .. } => ast_id
.to_in_file_node(db)
.map(|it| Some(it.token_tree()?.syntax().clone()))
.transpose(),
MacroCallKind::Derive { ast_id, .. } => {
Some(ast_id.to_in_file_node(db).syntax().cloned())
}
MacroCallKind::Attr { ast_id, .. } => {
Some(ast_id.to_in_file_node(db).syntax().cloned())
}
MacroCallKind::Derive { ast_id, .. } => Some(ast_id.to_node(db).syntax().clone()),
MacroCallKind::Attr { ast_id, .. } => Some(ast_id.to_node(db).syntax().clone()),
}
}
}
@ -627,7 +582,7 @@ impl MacroCallId {
/// ExpansionInfo mainly describes how to map text range between src and expanded macro
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct ExpansionInfo {
expanded: InFile<SyntaxNode>,
expanded: InMacroFile<SyntaxNode>,
/// The argument TokenTree or item for attributes
arg: InFile<SyntaxNode>,
/// The `macro_rules!` or attribute input.
@ -643,7 +598,7 @@ pub struct ExpansionInfo {
impl ExpansionInfo {
pub fn expanded(&self) -> InFile<SyntaxNode> {
self.expanded.clone()
self.expanded.clone().into()
}
pub fn call_node(&self) -> Option<InFile<SyntaxNode>> {
@ -674,7 +629,7 @@ impl ExpansionInfo {
let token_id_in_attr_input = if let Some(item) = item {
// check if we are mapping down in an attribute input
// this is a special case as attributes can have two inputs
let call_id = self.expanded.file_id.macro_file()?.macro_call_id;
let call_id = self.expanded.file_id.macro_call_id;
let loc = db.lookup_intern_macro_call(call_id);
let token_range = token.value.text_range();
@ -720,7 +675,7 @@ impl ExpansionInfo {
let relative_range =
token.value.text_range().checked_sub(self.arg.value.text_range().start())?;
let token_id = self.macro_arg.1.token_by_range(relative_range)?;
// conditionally shift the id by a declaratives macro definition
// conditionally shift the id by a declarative macro definition
self.macro_def.map_id_down(token_id)
}
};
@ -730,7 +685,7 @@ impl ExpansionInfo {
.ranges_by_token(token_id, token.value.kind())
.flat_map(move |range| self.expanded.value.covering_element(range).into_token());
Some(tokens.map(move |token| self.expanded.with_value(token)))
Some(tokens.map(move |token| InFile::new(self.expanded.file_id.into(), token)))
}
/// Map a token up out of the expansion it resides in into the arguments of the macro call of the expansion.
@ -739,18 +694,17 @@ impl ExpansionInfo {
db: &dyn db::ExpandDatabase,
token: InFile<&SyntaxToken>,
) -> Option<(InFile<SyntaxToken>, Origin)> {
assert_eq!(token.file_id, self.expanded.file_id.into());
// Fetch the id through its text range,
let token_id = self.exp_map.token_by_range(token.value.text_range())?;
// conditionally unshifting the id to accommodate for macro-rules def site
let (mut token_id, origin) = self.macro_def.map_id_up(token_id);
let call_id = self.expanded.file_id.macro_file()?.macro_call_id;
let call_id = self.expanded.file_id.macro_call_id;
let loc = db.lookup_intern_macro_call(call_id);
// Special case: map tokens from `include!` expansions to the included file
if loc.def.is_include()
&& matches!(loc.eager.as_deref(), Some(EagerCallInfo { arg_id: Some(_), .. }))
{
if loc.def.is_include() {
if let Ok((tt_and_map, file_id)) = db.include_expand(call_id) {
let range = tt_and_map.1.first_range_by_token(token_id, token.value.kind())?;
let source = db.parse(file_id);
@ -794,6 +748,58 @@ impl ExpansionInfo {
tt.value.covering_element(range + tt.value.text_range().start()).into_token()?;
Some((tt.with_value(token), origin))
}
fn new(db: &dyn db::ExpandDatabase, macro_file: MacroFile) -> Option<ExpansionInfo> {
let loc: MacroCallLoc = db.lookup_intern_macro_call(macro_file.macro_call_id);
let arg_tt = loc.kind.arg(db)?;
let macro_def = db.macro_expander(loc.def);
let (parse, exp_map) = db.parse_macro_expansion(macro_file).value;
let expanded = InMacroFile { file_id: macro_file, value: parse.syntax_node() };
let macro_arg = db.macro_arg(macro_file.macro_call_id).value.unwrap_or_else(|| {
Arc::new((
tt::Subtree { delimiter: tt::Delimiter::UNSPECIFIED, token_trees: Vec::new() },
Default::default(),
Default::default(),
))
});
let def = loc.def.ast_id().left().and_then(|id| {
let def_tt = match id.to_node(db) {
ast::Macro::MacroRules(mac) => mac.token_tree()?,
ast::Macro::MacroDef(_) if matches!(macro_def, TokenExpander::BuiltInAttr(_)) => {
return None
}
ast::Macro::MacroDef(mac) => mac.body()?,
};
Some(InFile::new(id.file_id, def_tt))
});
let attr_input_or_mac_def = def.or_else(|| match loc.kind {
MacroCallKind::Attr { ast_id, invoc_attr_index, .. } => {
// FIXME: handle `cfg_attr`
let tt = ast_id
.to_node(db)
.doc_comments_and_attrs()
.nth(invoc_attr_index.ast_index())
.and_then(Either::left)?
.token_tree()?;
Some(InFile::new(ast_id.file_id, tt))
}
_ => None,
});
Some(ExpansionInfo {
expanded,
arg: arg_tt,
attr_input_or_mac_def,
macro_arg_shift: mbe::Shift::new(&macro_arg.0),
macro_arg,
macro_def,
exp_map,
})
}
}
/// `AstId` points to an AST node in any file.
@ -805,6 +811,9 @@ impl<N: AstIdNode> AstId<N> {
pub fn to_node(&self, db: &dyn db::ExpandDatabase) -> N {
self.to_ptr(db).to_node(&db.parse_or_expand(self.file_id))
}
pub fn to_in_file_node(&self, db: &dyn db::ExpandDatabase) -> InFile<N> {
InFile::new(self.file_id, self.to_ptr(db).to_node(&db.parse_or_expand(self.file_id)))
}
pub fn to_ptr(&self, db: &dyn db::ExpandDatabase) -> AstPtr<N> {
db.ast_id_map(self.file_id).get(self.value)
}
@ -820,6 +829,7 @@ impl ErasedAstId {
db.ast_id_map(self.file_id).get_raw(self.value)
}
}
/// `InFile<T>` stores a value of `T` inside a particular file/syntax tree.
///
/// Typical usages are:
@ -1038,6 +1048,18 @@ impl InFile<SyntaxToken> {
}
}
#[derive(Debug, PartialEq, Eq, Clone, Copy, Hash)]
pub struct InMacroFile<T> {
pub file_id: MacroFile,
pub value: T,
}
impl<T> From<InMacroFile<T>> for InFile<T> {
fn from(macro_file: InMacroFile<T>) -> Self {
InFile { file_id: macro_file.file_id.into(), value: macro_file.value }
}
}
fn ascend_node_border_tokens(
db: &dyn db::ExpandDatabase,
InFile { file_id, value: node }: InFile<&SyntaxNode>,

View file

@ -6,7 +6,7 @@
pub use hir_def::db::*;
pub use hir_expand::db::{
AstIdMapQuery, DeclMacroExpanderQuery, ExpandDatabase, ExpandDatabaseStorage,
ExpandProcMacroQuery, HygieneFrameQuery, InternMacroCallQuery, MacroArgTextQuery,
ExpandProcMacroQuery, HygieneFrameQuery, InternMacroCallQuery, MacroArgNodeQuery,
MacroExpandQuery, ParseMacroExpansionErrorQuery, ParseMacroExpansionQuery,
};
pub use hir_ty::db::*;

View file

@ -698,7 +698,7 @@ impl Module {
fn emit_macro_def_diagnostics(db: &dyn HirDatabase, acc: &mut Vec<AnyDiagnostic>, m: Macro) {
let id = macro_id_to_def_id(db.upcast(), m.id);
if let hir_expand::db::TokenExpander::DeclarativeMacro(expander) = db.macro_def(id) {
if let hir_expand::db::TokenExpander::DeclarativeMacro(expander) = db.macro_expander(id) {
if let Some(e) = expander.mac.err() {
let Some(ast) = id.ast_id().left() else {
never!("declarative expander for non decl-macro: {:?}", e);

View file

@ -99,7 +99,7 @@ impl RootDatabase {
hir::db::AstIdMapQuery
hir::db::ParseMacroExpansionQuery
hir::db::InternMacroCallQuery
hir::db::MacroArgTextQuery
hir::db::MacroArgNodeQuery
hir::db::DeclMacroExpanderQuery
hir::db::MacroExpandQuery
hir::db::ExpandProcMacroQuery

View file

@ -200,7 +200,7 @@ impl RootDatabase {
hir_db::AstIdMapQuery
// hir_db::ParseMacroExpansionQuery
// hir_db::InternMacroCallQuery
hir_db::MacroArgTextQuery
hir_db::MacroArgNodeQuery
hir_db::DeclMacroExpanderQuery
// hir_db::MacroExpandQuery
hir_db::ExpandProcMacroQuery

View file

@ -265,10 +265,14 @@ fn traverse(
// set macro and attribute highlighting states
match event.clone() {
Enter(NodeOrToken::Node(node)) if ast::TokenTree::can_cast(node.kind()) => {
Enter(NodeOrToken::Node(node))
if current_macro.is_none() && ast::TokenTree::can_cast(node.kind()) =>
{
tt_level += 1;
}
Leave(NodeOrToken::Node(node)) if ast::TokenTree::can_cast(node.kind()) => {
Leave(NodeOrToken::Node(node))
if current_macro.is_none() && ast::TokenTree::can_cast(node.kind()) =>
{
tt_level -= 1;
}
Enter(NodeOrToken::Node(node)) if ast::Attr::can_cast(node.kind()) => {
@ -387,7 +391,7 @@ fn traverse(
};
let descended_element = if in_macro {
// Attempt to descend tokens into macro-calls.
match element {
let res = match element {
NodeOrToken::Token(token) if token.kind() != COMMENT => {
let token = match attr_or_derive_item {
Some(AttrOrDerive::Attr(_)) => {
@ -412,7 +416,8 @@ fn traverse(
}
}
e => e,
}
};
res
} else {
element
};

View file

@ -161,7 +161,7 @@ pre { color: #DCDCCC; background: #3F3F3F; font-size: 22px; padd
<span class="keyword">let</span> <span class="punctuation">_</span> <span class="operator">=</span> <span class="string_literal">"</span><span class="escape_sequence">\x28</span><span class="escape_sequence">\x28</span><span class="escape_sequence">\x00</span><span class="escape_sequence">\x63</span><span class="escape_sequence">\n</span><span class="string_literal">"</span><span class="semicolon">;</span>
<span class="keyword">let</span> <span class="punctuation">_</span> <span class="operator">=</span> <span class="string_literal">b"</span><span class="escape_sequence">\x28</span><span class="escape_sequence">\x28</span><span class="escape_sequence">\x00</span><span class="escape_sequence">\x63</span><span class="escape_sequence">\n</span><span class="string_literal">"</span><span class="semicolon">;</span>
<span class="keyword">let</span> <span class="punctuation">_</span> <span class="operator">=</span> <span class="string_literal">r"\\"</span><span class="semicolon">;</span>
<span class="keyword">let</span> <span class="variable declaration reference">backslash</span> <span class="operator">=</span> <span class="string_literal">r"\\"</span><span class="semicolon">;</span>
<span class="macro">println</span><span class="macro_bang">!</span><span class="parenthesis macro">(</span><span class="string_literal macro">"</span><span class="format_specifier">{</span><span class="escape_sequence">\x41</span><span class="format_specifier">}</span><span class="string_literal macro">"</span><span class="comma macro">,</span> <span class="none macro">A</span> <span class="operator macro">=</span> <span class="numeric_literal macro">92</span><span class="parenthesis macro">)</span><span class="semicolon">;</span>
<span class="macro">println</span><span class="macro_bang">!</span><span class="parenthesis macro">(</span><span class="string_literal macro">"</span><span class="format_specifier">{</span><span class="variable">ничоси</span><span class="format_specifier">}</span><span class="string_literal macro">"</span><span class="comma macro">,</span> <span class="none macro">ничоси</span> <span class="operator macro">=</span> <span class="numeric_literal macro">92</span><span class="parenthesis macro">)</span><span class="semicolon">;</span>
@ -173,6 +173,6 @@ pre { color: #DCDCCC; background: #3F3F3F; font-size: 22px; padd
<span class="macro">assert</span><span class="macro_bang">!</span><span class="parenthesis macro">(</span><span class="bool_literal macro">true</span><span class="comma macro">,</span> <span class="string_literal macro">"</span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro"> asdasd"</span><span class="comma macro">,</span> <span class="numeric_literal macro">1</span><span class="parenthesis macro">)</span><span class="semicolon">;</span>
<span class="macro">toho</span><span class="macro_bang">!</span><span class="parenthesis macro">(</span><span class="string_literal macro">"</span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro">fmt"</span><span class="comma macro">,</span> <span class="numeric_literal macro">0</span><span class="parenthesis macro">)</span><span class="semicolon">;</span>
<span class="macro unsafe">asm</span><span class="macro_bang">!</span><span class="parenthesis macro">(</span><span class="string_literal macro">"mov eax, </span><span class="format_specifier">{</span><span class="numeric_literal">0</span><span class="format_specifier">}</span><span class="string_literal macro">"</span><span class="parenthesis macro">)</span><span class="semicolon">;</span>
<span class="macro">format_args</span><span class="macro_bang">!</span><span class="parenthesis macro">(</span><span class="none macro">concat</span><span class="punctuation macro">!</span><span class="parenthesis macro">(</span><span class="string_literal macro">"</span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro">"</span><span class="parenthesis macro">)</span><span class="comma macro">,</span> <span class="string_literal macro">"</span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro">"</span><span class="parenthesis macro">)</span><span class="semicolon">;</span>
<span class="macro">format_args</span><span class="macro_bang">!</span><span class="parenthesis macro">(</span><span class="string_literal macro">"</span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro">"</span><span class="comma macro">,</span> <span class="none macro">format_args</span><span class="operator macro">!</span><span class="parenthesis macro">(</span><span class="string_literal macro">"</span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro">"</span><span class="comma macro">,</span> <span class="numeric_literal macro">0</span><span class="parenthesis macro">)</span><span class="parenthesis macro">)</span><span class="semicolon">;</span>
<span class="macro">format_args</span><span class="macro_bang">!</span><span class="parenthesis macro">(</span><span class="none macro">concat</span><span class="punctuation macro">!</span><span class="parenthesis macro">(</span><span class="string_literal macro">"</span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro">"</span><span class="parenthesis macro">)</span><span class="comma macro">,</span> <span class="string_literal macro">"{}"</span><span class="parenthesis macro">)</span><span class="semicolon">;</span>
<span class="macro">format_args</span><span class="macro_bang">!</span><span class="parenthesis macro">(</span><span class="string_literal macro">"</span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro"> </span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro"> </span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro"> </span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro"> </span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro"> </span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro">"</span><span class="comma macro">,</span> <span class="none macro">backslash</span><span class="comma macro">,</span> <span class="none macro">format_args</span><span class="punctuation macro">!</span><span class="parenthesis macro">(</span><span class="string_literal macro">"</span><span class="format_specifier">{</span><span class="format_specifier">}</span><span class="string_literal macro">"</span><span class="comma macro">,</span> <span class="numeric_literal macro">0</span><span class="parenthesis macro">)</span><span class="comma macro">,</span> <span class="none macro">foo</span><span class="comma macro">,</span> <span class="string_literal macro">"bar"</span><span class="comma macro">,</span> <span class="none macro">toho</span><span class="punctuation macro">!</span><span class="parenthesis macro">(</span><span class="parenthesis macro">)</span><span class="comma macro">,</span> <span class="none macro">backslash</span><span class="parenthesis macro">)</span><span class="semicolon">;</span>
<span class="brace">}</span></code></pre>

View file

@ -507,7 +507,7 @@ fn main() {
let _ = "\x28\x28\x00\x63\n";
let _ = b"\x28\x28\x00\x63\n";
let _ = r"\\";
let backslash = r"\\";
println!("{\x41}", A = 92);
println!("{ничоси}", ничоси = 92);
@ -520,7 +520,7 @@ fn main() {
toho!("{}fmt", 0);
asm!("mov eax, {0}");
format_args!(concat!("{}"), "{}");
format_args!("{}", format_args!("{}", 0));
format_args!("{} {} {} {} {} {}", backslash, format_args!("{}", 0), foo, "bar", toho!(), backslash);
}"#,
expect_file!["./test_data/highlight_strings.html"],
false,

View file

@ -208,7 +208,7 @@ impl Shift {
}
}
#[derive(Debug, Eq, PartialEq)]
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
pub enum Origin {
Def,
Call,

View file

@ -110,4 +110,11 @@ impl TokenMap {
// FIXME: This could be accidentally quadratic
self.entries.remove(idx);
}
pub fn entries(&self) -> impl Iterator<Item = (tt::TokenId, TextRange)> + '_ {
self.entries.iter().filter_map(|&(tid, tr)| match tr {
TokenTextRange::Token(range) => Some((tid, range)),
TokenTextRange::Delimiter(_) => None,
})
}
}

View file

@ -171,6 +171,109 @@ impl SourceFile {
}
}
impl ast::TokenTree {
pub fn reparse_as_expr(self) -> Parse<ast::Expr> {
let tokens = self.syntax().descendants_with_tokens().filter_map(NodeOrToken::into_token);
let mut parser_input = parser::Input::default();
let mut was_joint = false;
for t in tokens {
let kind = t.kind();
if kind.is_trivia() {
was_joint = false
} else {
if kind == SyntaxKind::IDENT {
let token_text = t.text();
let contextual_kw = SyntaxKind::from_contextual_keyword(token_text)
.unwrap_or(SyntaxKind::IDENT);
parser_input.push_ident(contextual_kw);
} else {
if was_joint {
parser_input.was_joint();
}
parser_input.push(kind);
// Tag the token as joint if it is float with a fractional part
// we use this jointness to inform the parser about what token split
// event to emit when we encounter a float literal in a field access
if kind == SyntaxKind::FLOAT_NUMBER && !t.text().ends_with('.') {
parser_input.was_joint();
}
}
was_joint = true;
}
}
let parser_output = parser::TopEntryPoint::Expr.parse(&parser_input);
let mut tokens =
self.syntax().descendants_with_tokens().filter_map(NodeOrToken::into_token);
let mut text = String::new();
let mut pos = TextSize::from(0);
let mut builder = SyntaxTreeBuilder::default();
for event in parser_output.iter() {
match event {
parser::Step::Token { kind, n_input_tokens } => {
let mut token = tokens.next().unwrap();
while token.kind().is_trivia() {
let text = token.text();
pos += TextSize::from(text.len() as u32);
builder.token(token.kind(), text);
token = tokens.next().unwrap();
}
text.push_str(token.text());
for _ in 1..n_input_tokens {
let token = tokens.next().unwrap();
text.push_str(token.text());
}
pos += TextSize::from(text.len() as u32);
builder.token(kind, &text);
text.clear();
}
parser::Step::FloatSplit { ends_in_dot: has_pseudo_dot } => {
let token = tokens.next().unwrap();
let text = token.text();
match text.split_once('.') {
Some((left, right)) => {
assert!(!left.is_empty());
builder.start_node(SyntaxKind::NAME_REF);
builder.token(SyntaxKind::INT_NUMBER, left);
builder.finish_node();
// here we move the exit up, the original exit has been deleted in process
builder.finish_node();
builder.token(SyntaxKind::DOT, ".");
if has_pseudo_dot {
assert!(right.is_empty(), "{left}.{right}");
} else {
builder.start_node(SyntaxKind::NAME_REF);
builder.token(SyntaxKind::INT_NUMBER, right);
builder.finish_node();
// the parser creates an unbalanced start node, we are required to close it here
builder.finish_node();
}
}
None => unreachable!(),
}
pos += TextSize::from(text.len() as u32);
}
parser::Step::Enter { kind } => builder.start_node(kind),
parser::Step::Exit => builder.finish_node(),
parser::Step::Error { msg } => builder.error(msg.to_owned(), pos),
}
}
let (green, errors) = builder.finish_raw();
Parse { green, errors: Arc::new(errors), _ty: PhantomData }
}
}
/// Matches a `SyntaxNode` against an `ast` type.
///
/// # Example:

View file

@ -68,6 +68,21 @@ pub mod token_id {
Self::Subtree(Subtree { delimiter: Delimiter::unspecified(), token_trees: vec![] })
}
}
impl Subtree {
pub fn visit_ids(&mut self, f: &impl Fn(TokenId) -> TokenId) {
self.delimiter.open = f(self.delimiter.open);
self.delimiter.close = f(self.delimiter.close);
self.token_trees.iter_mut().for_each(|tt| match tt {
crate::TokenTree::Leaf(leaf) => match leaf {
crate::Leaf::Literal(it) => it.span = f(it.span),
crate::Leaf::Punct(it) => it.span = f(it.span),
crate::Leaf::Ident(it) => it.span = f(it.span),
},
crate::TokenTree::Subtree(s) => s.visit_ids(f),
})
}
}
}
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]